# tactiq.io free youtube transcript
# Andrew Hall: Mt. Origami – More Proof of Plasma Winds | Thunderbolts
# https://www.youtube.com/watch/Dz9c24XBU5o

00:00:11.960 We have discovered more proof of plasmawinds, and we'll be looking at a mountain
00:00:16.270 I call ‘Origami’. Origami isn't the mountain's real name. It'scalled ‘Innerer Fisistock’ and it's in the Bernese Alps, about
00:00:25.320 40 miles south of Bern, Switzerland. Becauseit's such a complex piece of Earth, it
00:00:30.750 serves especially well to demonstratethe actions of electric circuitry and
00:00:34.920 plasma winds in mountain formation.In fact, this mountain displays
00:00:39.200 electromagnetic sonic shock effects so well,it might be considered the David of plasma wind
00:00:46.280 sculptures. It also provides another opportunity toreview sonic shock effects and expand our knowledge. This
00:00:53.840 exquisite visual evidence portrays so many details of shockwavebehavior, that it could almost stand alone as proof that
00:01:00.390 plasma wind sculpted the face of our planet. Therefore,we'll spend some time reviewing shockwave evidence you may
00:01:06.880 have seen in this space before, but it will be worth it tosee how this one mountain ties it all together. One has to
00:01:13.750 wonder how these rock layers bent without breaking.Let's first take a tongue-in-cheek review of the
00:01:19.960 scientific consensus model for how such a mountain came to be.We should poke some fun, because their theories are
00:01:26.110 based on some incredibly hollow assumptions. The consensuswill say heat and pressure under tons of overburden made
00:01:33.470 the rock plastic, and seismic forces made it twist. But theseformations are right beneath the surface where no such heat
00:01:41.000 and pressure exists. So, the consensus added millions ofyears to allow time for something to happen. And they have
00:01:48.640 concluded that somewhere in that time, this mountaingrew deep underground under tremendous heat and pressure,
00:01:55.000 either as a bottled-up volcano or an ancient seabed beforebeing twisted and shoved thousands of feet through the
00:02:01.390 earth's crust, bending without breaking, to arrive in theAlps, the very rooftop of Europe. The twisting occurred because
00:02:09.229 the continents are (according to the consensus) creepingacross the face of the earth like undulating amoebas, slowly
00:02:15.840 smashing into each other and causing the crust to foldlike an accordion. This requires some cause to push the
00:02:22.840 continents for which evidence is yet to be invented. But being a consensus demands a settled consensus, and settled
00:02:30.720 they have on the idea of subduction, whereby continentalplates try to hump each other. One plate rides up onto
00:02:38.230 another like a horny walrus, causing all kinds of mayhem –earthquakes, volcanoes and faulting from up and down accordion
00:02:46.120 action. It's an act of violent tectonic rate that shakesthe bed frames but very, very slowly over millions of
00:02:54.560 years. Now, this still doesn't answer what does the pushing, but it explains the heat and shaking.
00:03:00.440 The consensus still looks for a source that pushes thecontinents around. Peer reviewed papers claim it could be
00:03:06.680 plutons, dark energy, dark matter, micro black holesor a wormhole. These are things with names, but no
00:03:15.720 explanation. Many think it's related to the idea - reallyjust a wild-ass assumption - that the earth has a core of
00:03:23.120 iron that spins inside like a ball bearing at a differentrate than the rest of the earth. It's been doing this
00:03:28.790 for billions of years right under our feet, and we don'teven feel it. It's so damn smooth like a Lincoln Continental
00:03:36.080 except when the continents bang around. While agreeingto disagree about the pushing force, they agree on the
00:03:42.950 humping, but the consensus model for mountain formation fromaccordion action needs one more act – erosion. They have to
00:03:51.040 fill up those millions of years. The concept is demonstratingthe above piece of science, the idea being that mountains were
00:03:59.070 really long ago pushed up way higher, even two three timesas high than they are now, and then worn down by erosion over
00:04:06.400 those millions and millions of years. This has to happen intheir models to produce the mountain shapes - the sharp peaks,
00:04:13.680 cliffs, deep-cut canyons, and the fact they find river rock andsea shells on top of mountains, and all other sorts of geologic
00:04:22.750 strangeness. Never mind that wear causes shapes to roundoff, not sharpen. It's counterintuitive that mountains result
00:04:30.030 from wear of course, because it's nonsense. Welcome tocognitive dissonance. Their theories leave a lot of questions.
00:04:38.840 Like, where is all that eroded matter? But the biggest questionof all is, how does that model - of time plus random forces -
00:04:45.800 produce the harmonics that are so obviously present?Look at these pictures and others to appear later. Go look at
00:04:53.360 the mountains outside. There are harmonic shapes everywhere.These are sonic waveforms. They are the result of
00:05:00.880 interference patterns generated by electric winds. The tetrahedral shape of mountains and layered triangular flat
00:05:08.400 irons are due to a high-pressure zone in the shockwavecalled the ‘lambda structure’. Harmonics and shockwaves are
00:05:15.600 found in longitudinal, transverse and compound form.A longitudinal harmonic occurs when multiple lambda structures
00:05:23.000 form simultaneously, side by side across a wind front asan interference pattern. A transverse harmonic occurs when
00:05:30.880 sequential lambda structures form in line with the wind,like a jagged sine wave, building tetrahedrons one atop, or in
00:05:37.750 front of another, as the shockwave travels into the wind.A compound harmonic occurs when both happen
00:05:44.600 together in synchrony. Transverse structures portraychanges in amplitude to the lambda structure over time,
00:05:51.910 allowing a way to determine if the winds were buildingor diminishing as the mountain deposited. Longitudinal
00:05:58.190 structures portray changes in amplitude as well, allowingdetermination of relative wind strength across the wind
00:06:04.630 front. Changes to the Mach angle portrayed on the windwardside of the tetrahedron, allow a way to determine relative
00:06:11.630 changes to the wind velocity in both direction and speed.The information that is contained in the waveform and built
00:06:19.880 into the structure of our mountains, is absolutely incredible.The mountains are waveforms. The waveforms are evident in
00:06:27.750 virtually every mountain structure except for volcanoes.And even some volcanoes exhibit them, although the
00:06:33.910 cause and effect are different. Some mountains areclearly defined tetrahedral shapes from supersonic winds,
00:06:40.960 and some are piles of fluid dunes deposited by subsonic winds. The same shockwave forms appear time and again
00:06:48.880 in every type of mountain, from igneous granites to sedimentsof sandstone and limestone, belying the consensus concepts for
00:06:57.590 formation. Consensus geology generally ignores theobvious harmonics because their paradigm holds no answer.
00:07:05.440 That is why I never believed them. If you can even find whereconsensus geology tries to explain harmonics, it revolves
00:07:12.190 around meaningless pleas to butterfly wings, interconnectednessand complexity - ponderings of the eternally confused.
00:07:20.560 They are so full of crap. They can't explain it becausethey ignore the obvious role of electricity. Harmonics
00:07:27.870 are a consequence of resonant frequencies and electromagneticwaves - sound waves, light waves, any wave. The energy that
00:07:36.190 drives the wind is electromagnetic. You will know if you have followed Electric Earth geology,
00:07:43.400 that plasma winds and electrical discharge sculptedthe face of our planet. Not parts of it, everything.
00:07:50.520 Erosion and time have had superficial effects on a landscapeshaped by Earth's electromagnetic field, which time and
00:07:58.360 again has amplified to catastrophic levels. Earth's birthwas electrical and plasma wind scoured its face then and
00:08:06.870 since, in repeated events of high potential that piledlayer upon layer of sediments during storms of Jovian
00:08:14.870 intensity. As myth has it and the Thunderbolts project knows,Zeus really did throw lightning. That episodes of plasma storms
00:08:24.630 swept the planet is verifiably evident. Mount Origami isevidence of fluid, ionized dust, deposited by supersonic winds
00:08:33.909 during one of these episodes. The shape of itssinuous faults is irrefutable proof of supersonic
00:08:41.590 winds. Most mountain structures are formed like a sand dune,deposited by dust -laden plasma wind. The wind however was
00:08:50.040 in places supersonic, traveling in jet streams of electriccurrents, segregated by magnetic fields and step voltages.
00:08:58.240 Winds swirled in coaxial vortices paralleled at differentspeeds, passed each other in opposite directions and
00:09:05.800 crisscrossed like a freeway overpass. Polarity, harmonicsin the electric field and magnetic induction patterned
00:09:14.000 their motions. They were winds like those on the planetJupiter are today. Supersonic winds form shockwaves
00:09:21.830 where there is a change in momentum, meaning a change inspeed, direction or density. Any bump on the ground in the
00:09:28.680 path of such wind will produce a standing shockwave.Shockwaves produce sonic waveform geometry sharply defining
00:09:36.480 regions of compression and rarefaction in the atmosphere.These geometries can be reproduced without fail in the
00:09:44.510 laboratory using simple wind tunnel models. The image shownis an example. It portrays a standing shockwave produced
00:09:52.880 by a supersonic wind in an expanding volume chamber. Notethe nuanced patterns that barely show his shadows, as well as
00:10:01.440 the darkly defined lines that portray the incident shockwave.These are all harmonic reflections that resonate the
00:10:08.600 incident shockwave, and portray an interferencepattern of compression and rarefaction downstream.
00:10:14.480 Like any sound wave, shock waves echo, refract,resonate and cancel in the manner that classical physics
00:10:22.440 predicts. The dark lines in the image are from light refractedby the high density extreme pressure in the shockwave taken
00:10:30.390 by Schlieren photography. Each dark line isactually a razor thin region of extreme compression
00:10:37.240 and temperature. Compression also ionized the air in theshockwave. And in the charged plasma environment, at the time
00:10:44.600 mountains were built, they became electrical conductorsbetween the clouds and ground. It should be recognized by
00:10:51.600 intuitive reasoning that, in a plasma environment, sonic waves and electromagnetic waves become one and the
00:10:57.720 same. The energy in the shockwave forcesionization as demonstrated when nuclear
00:11:03.320 blast shockwaves generate lightning. Add an electric fieldamped to superstorm levels, winds mixing a chemical soup, and
00:11:11.630 Earth's atmosphere had to mimic Jupiter's, with gargantuanelectric shocks trying to balance charges and the
00:11:18.480 shockwaves acting as lightning conduits. All of the regionsin the shock pattern influence mountain building, and
00:11:25.600 the evidence is left in the rock. So, we'll look at afew examples to establish how to observe this and then
00:11:32.320 discuss the formation of Mount Origami. There are three regions highlighted in the next simplified
00:11:39.200 diagram of a standing supersonic shock wave and itsturbulent downstream reflections. The highlighted features
00:11:46.830 play the most common roles in mountain building. First, themost obvious features to examine is the lambda shock structure,
00:11:55.040 also noted as the bifurcated structure highlighted in red. This region is where a deflection of the
00:12:01.360 supersonic wind creates a standing wave, called the reflectedshockwave in the diagram because it is a reflection from
00:12:08.800 the floor, but it's sometimes referred to as the incidentwave, depending on the framework of the experiment.
00:12:14.680 The lambda structure is in 3D a tetrahedral bubbleof high pressure and low velocity created where the fast
00:12:22.950 moving airstream separates from the ground and deflectsupward like wind flowing over an airplane wing. The
00:12:29.560 deflection produces a low pressure high velocity zone above anda high pressure low velocity zone below. In a highly charged
00:12:38.120 plasma environment it was also a denselycharged Delta-Y junction in the circuit
00:12:43.440 between sky and ground, which made it actlike an electrostatic dust bin. The shape
00:12:49.190 of the tallest, most dramatic mountains on the planet aredirect visual proof of this. Note there are singular peaks and
00:12:56.630 repeating harmonic peaks. These were created in a singularstorm event that swept the face of the planet. A storm so
00:13:04.600 violent that supersonic winds generated lambda structuresthousands of feet high. A wind so dusty it filled those
00:13:11.920 structures to overflowing during that singular storm. Thisis just my opinion of course, based on what I see around me.
00:13:19.950 I will say in my defense that many ancient texts andmyths tend to agree. Everest is a particularly good
00:13:27.880 display, because it shows the magnitude of the freaking winds I'm talking about. It's 29,000 ft tall and has sea shells
00:13:35.360 in it, meaning it was dredged from the sea and deposited athigh speed into an electromagnetic gel mold generated by an
00:13:42.760 electrified wind dragging across the face of the earth.To my mind this could only be possible if nearly the entire
00:13:50.560 atmosphere was in supersonic motion. The angle of the windwardface of the lambda structure is related mathematically to
00:13:58.240 the Mach speed of the wind producing the shockwave. The lambdastructure forms a triangular plane at this angle, situated
00:14:05.880 perpendicular to the wind direction, just like the windwardfacet of a sand dune. It's called the Mach angle and can be
00:14:12.720 used to determine the wind velocity for agiven gas density. Everest’s North Face on the
00:14:19.190 Tibetan side is this windward face. The stratificationof its limestone sediments are an angle of dip much
00:14:26.830 shallower than the North Face profile that portrays theMach angle. The stratification is very evident in the
00:14:33.600 photo of Everest shown. Please note that in the accompanyingshockwave image inside the lambda structure, there are
00:14:41.160 echoes inside that have a reduced angle of dip compared tothe Mach angle of the tetrahedron. This is highlighted in red
00:14:48.390 in the image. Now I'll compare the stratification dipon Everest to its lambda outline. There is a similar
00:14:55.830 relationship to the internal pressure stratificationin the lambda structure indicating the mountain was
00:15:01.750 deposited in layers at this angle under the influenceof a continuous wind until entirely filling the
00:15:09.120 tetrahedron. The layers vary in composition indicatingthe wind itself was layered, or segmented in
00:15:16.950 composition. Did the layers deposit sequentially, one atop of the other? Or did a single wind rainbow layered in
00:15:24.750 chemistry fill this lambda structure all at once. I stronglyfavor sequential layering, but I haven't ruled out rainbow
00:15:33.070 either. At least it did not happen over millions of years. It occurred during a single storm event - geologically speaking
00:15:41.880 it happened all at once. That must have been something.The entire planet must have spun and in fact it did.
00:15:48.800 This can be shown by identifying the interferencepatterns that remain for us to observe. The devil is in the
00:15:56.630 details, so understanding shockwaves first is critical. With direct knowledge of how supersonic wave structures act,
00:16:04.480 anyone can see and study these structures in themountains for themselves. There is a wealth of
00:16:09.750 peer-reviewed material in applied science written byengineers without political agendas that can be relied
00:16:16.190 upon to study shockwave behavior. The mountains are at your disposal. The next feature is noted as a
00:16:24.680 separated flow zone, or more commonly,the separation bubble, highlighted in green in the
00:16:30.600 diagram. It's this zone of the shockwavestructure that formed Mount Origami. This
00:16:36.390 zone is really a subset, or a bubblewithin a bubble, of the lambda structure.
00:16:41.560 Because these are sonic waves, there are harmonies and thisis a harmonic within the lambda structure. It can fill with
00:16:48.680 dust and create a mountain which will showunique characteristics. One is the double peak
00:16:54.360 configuration caused by destructive interference inthe waveform. The separation bubble is an even higher
00:17:01.270 pressure, lower velocity zone within the lambda structure.It can also be turbulent with sucking decompression
00:17:08.030 zones and backflowing eddies. It's subject to destabilizingas wind velocity fluctuates and as the bubble fills with
00:17:16.400 dust and these instabilities make identifiable patterns,one of which is double peaks. Its cause is the expansion
00:17:25.160 fan which is the third feature I highlighted in bluein the diagram. It creates a standing wave interference
00:17:32.120 pattern. This is an interference pattern common in mountainranges everywhere, where linear wind-swept valleys stretch
00:17:38.550 between rows of tetrahedral peaks, caused by a lowpress expansion fan at the top of the separation
00:17:45.160 bubble. The Schlieren photo shows the low pressure zonecreated beneath the expansion fan that evacuates this region
00:17:52.720 in the separation bubble with fast circulating winds,leaving a valley between two peaks. In profile, one sees
00:18:00.520 two harmonic peaks, but it's actually parallel rows of peaks.It's important to understand that the expansion fans are
00:18:07.840 standing waves of low pressure thatrevector the wind 90 degrees to the wind forming
00:18:12.960 the shockwave. It causes recirculation, or whirlpools, oflow pressure in the wake. The whirlpool effect redirects the
00:18:22.000 wind 90 degrees, like a horizontal tornadoobeying the right hand rule, which is how
00:18:27.880 the wind flows, hugging the ground in theinterference pattern. If conditions are
00:18:32.960 right, the expansion fan can also suckdust into this region in the separation
00:18:37.720 bubble and fill it, although examples areharder to find because they're usually
00:18:41.910 beneath the ground. The example shown isan improbable convex hill made of concave
00:18:48.720 stratigraphy. In this other example isan intrusive stratigraphy curling like a
00:18:54.080 wave beneath a perfectly level ridge. This is literallya petrified tornado curled beneath an opposite polarity
00:19:02.150 crosswind that leveled the surface. A separationbubble produces harmonics in wind tunnel tests that can
00:19:09.320 be perfectly matched with complex mountain forms.Wind deposits sediment layers aligned with pressure regimes
00:19:16.440 within the separation bubble. More often these are depositedin laminar planes, like this geologic depiction of the
00:19:24.120 layers in the Catalina mountains in Tucson, Arizona.However, these pressure regimes curl
00:19:30.640 like waves because they are when thereis turbulence. Turbulent shockwave
00:19:36.670 reflections can do the darndest harmonic things when theyare energized with high charge density. Note in the region
00:19:44.080 downwind of the lambda structure shown next,there are regular parallel vertically linear shock
00:19:51.550 reflections. This is a fine harmonic detail in the patternof compression and rarefaction that can be found in
00:19:58.440 extremely energetic events. It's expressed in therock as regular perpendicular seams where knife-
00:20:05.670 thin compression waves carried currentsthat evacuated matter and left checkerboard
00:20:12.480 cracks. The next image shows greater fidelity of theintricate standing wave geometries that can form in the lambda
00:20:19.640 foot near the separation bubble. Bear in mind the wind flowsthrough sonic waves, but they aren't bounded by the wind
00:20:27.150 alone. They couple to, and vibrate the solid matter theycontact, as some of the energy they convey reflects and some
00:20:34.960 absorbs depending on the properties of the material. Thesesonic wave patterns are what you'll see if you examine rocks
00:20:42.000 much. At least where I live, granite and quartzis crisscrossed with fissures in these same
00:20:48.640 geometries. The coupling occurs because the matter is beingdeposited in a fluid or semifluid state around the shockwave
00:20:56.030 itself, and therefore molding to its intricate pressureregimes and boundary layers, all of which is energized with
00:21:03.360 electric current that solidifies to rock as ions recombine toabsorb the energy. The following images display on the left a
00:21:11.960 diagram of pressure regimes at the boundary layer of areflected shockwave. On the right is a perfect example in
00:21:18.600 nature where this exact thing happened. Layering windbornedust in the exact mold of the shockwave, because this dust
00:21:26.240 deposited into the shockwave as the separation bubble filledfollowing its exact pressure and step voltage profile.
00:21:34.880 And yes, I said ‘exact’ three times. What's especially tellingof wind formation are downburst craters. Downburst craters
00:21:44.000 occur where the eye of a cyclone impacted the landbeneath like a supersonic blowtorch. It typically
00:21:50.880 created boot print craters, with the inner rim of the craterdisplaying harmonic tetrahedral shock patterns where the plasma
00:21:57.670 wind reflected from the ground. The very type of cyclonicstorm that produced boot prints on Earth can be seen raging
00:22:05.150 in Jupiter's atmosphere today. The glaringly apparentharmonics in these waveform structures can fully be
00:22:12.360 explained by plasma winds and is reproducible.Did I mention Jupiter where it's happening
00:22:19.360 today? There is only one rational reproducible causethat complies with known physics to produce such harmonic
00:22:27.200 effects and it's not erosion. It's harmonic sonicwaveforms produced by supersonic winds. Harmonic waveforms
00:22:36.720 appear at every scale from the structure of the rock itselfto the shape of the tallest mountains. And each and every one
00:22:43.520 can be modeled with wind and a dose of current. The nextimage highlights features of a mountain in Comb Ridge,
00:22:50.880 Arizona along the rim of Monument Valley, formed by an unstableshockwave. In it there is a circular hollow in the center
00:22:58.790 of the tetrahedral mountain. This is also theresult of an expansion zone that creates
00:23:03.670 a tornadic circulation which eats into the separation bubble.Around it, harmonic mini tetrahedrons are forming in forward
00:23:12.520 positions as the destabilized shockwave was beginningto advance into the wind. Next are highlighted prominent
00:23:20.480 features on the image of an unstable shockwave produced ina wind tunnel. You can see, adjusting for perspective a bit,
00:23:28.480 they are patterned almost identically. Which brings us backto Mount Origami and its strangeness. The hole is why Mount
00:23:37.120 Origami, like the mountain on Comb Ridge, had a hole in it too.It's a very common thing to find such holes in mountain
00:23:44.320 faces because they were all formed by winds thatrepeated the same actions again and again. Here's a few
00:23:52.600 examples. Look carefully at the next image which is acloseup of the hole in the mountain in Comb Ridge. You'll see
00:24:00.120 the hole penetrates layers into the face of this tetrahedron,and even undercuts the rim. The hole penetrates deeper at
00:24:08.320 the center and concentric rings of the penetratedlayers are exposed. What forms these holes is a
00:24:15.270 whirlwind that attacks the face of the tetrahedron due toinstabilities in the shockwave. The whirlwind drives into the
00:24:23.080 face like a drill. If conditions are right, this whirlwindcan drill a hole in a mountain as it forms and then suck
00:24:30.790 dust from the upper regions of the airstreamand inject it into this hole like a fire
00:24:36.150 hose. Being in a plasma wind, the whirlwind is a Marklundcurrent which is coaxial with a spiraling negative
00:24:43.880 current that draws matter up surrounding a downdraft currentof positive ions. The outer whirlwind drills the hole and the
00:24:52.520 inner current grabs dust from above and injects into it.Imagine taking a hot croissant from the oven still
00:25:00.360 chewy and too hot to eat. Before it cools, punch a hole inthe center of its triangular face and inject it with cream
00:25:07.910 cheese. Fill until it separates the croissant and liftsthe top layer. Now press your hand on it and squish until
00:25:16.030 the cheese begins extruding out the sides. That is essentially what happened to Mount Origami. Take a
00:25:24.720 look. The outline in green profiles the whole discontinuityand blue lines trace the flow stone sucked into the gap. This
00:25:34.550 tetrahedron formed in the separation bubble of ashockwave that destabilized, allowing a vortex to form
00:25:41.790 on the face that penetrated the nascent tetrahedronand blew dust in, like injecting the cream cheese.
00:25:48.120 The shockwave itself, and the pattern layers that it molded under tremendous pressure, were curled by the
00:25:55.960 inflection in the wind, which changed the attitude and shape of the original tetrahedron, folding it back like a flap
00:26:02.600 of croissant and filling beneath with hot fluid matter. The following pictures show where
00:26:08.880 hot, semifluid matter, extruded and dripped,covering the stratified layers with flow
00:26:16.960 stone. Perhaps you're still skeptical the wind could dothis, then take one more look at the entire panorama of the
00:26:24.670 Gärsthorn mountains. Examine all the details. It is a living sculpture and perfect profile of an unstable
00:26:33.320 separation bubble portraying in excruciating detail theturbulence in the wind. This should nail the coffin shut
00:26:42.600 on consensus geology and prove plasma winds. The entiremountain displays intricate shockwave patterns that can be
00:26:50.880 matched curl for curl with a repeatable wind tunnel test.This isn't the only example, this same turbulence forming
00:26:59.200 mountains. Mount Origami happens to be the bestexample I found. Of course, there will be those who
00:27:06.640 call this pareidolia. They're the same people whosay the paltry one-way force of gravity powers the
00:27:14.030 universe. They are the same people who say millions of yearsof erosion makes harmonic, perfectly formed tetrahedral peaks
00:27:21.320 in the shape of shockwaves. They are also who say a roomfulof monkeys could write the Bible, if given us enough time.
00:27:29.030 They are the consensus, herd minds, who have shepherds who feed them this nonsense. But for normal people, I think
00:27:36.840 common sense and a pair of eyes that's allthat's needed to see what is actually sitting in
00:27:43.440 Switzerland. Wind blew through sonic shock patterns of highcharge densities carrying matter; a chemical pandora in
00:27:51.670 reverse, all jammed together in layers that conformed toshockwaves that came and went, a brief interference pattern
00:27:59.270 caused by some Velikovsky-style event.Only their pattern is left behind as solid as a
00:28:07.640 rock. There is no need for equations or a PhD.Nature provides the empirical knowledge by
00:28:16.120 example. God wants us to know. Besides, you must be awareby now. PhD is evidence of complete matrix absorption. The
00:28:27.670 highest level of brainwash. This is why I'ma natural philosopher, not a “psyopsentist”
00:28:35.510 Why waste time on detailed forensicswhen the truth has already been
00:28:41.150 revealed? It's my ‘dharma’, which is to say my pleasureto show humanity, not to prove anything. Belief is in each
00:28:50.390 individual's heart, not charts or equations.You look, you see, you think, and you decide.
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